CN113232040A - Mechanical arm with double working modes and high load self-weight ratio - Google Patents

Abstract

The invention discloses a mechanical arm with double working modes and a high load-weight ratio. And the driving device III is fixed on the mechanical arm III, and the mechanical arm is fixed on the mechanical arm III. The mechanical arm is divided into two working modes, the first mechanical arm and the second mechanical arm are in a non-locking state in a light load mode, the mechanical arm has three degrees of freedom, the first mechanical arm and the second mechanical arm are in a locking state through lower limit support in a heavy load mode, the second driving device is locked, the third mechanical arm is in a suspension state, and the mechanical arm has one degree of freedom. Through the locking of structure and the switching of drive, realize the switching of light load and heavy load mode, the arm bears a burden the proportion and exceeds 1: 1.

Description

Mechanical arm with double working modes and high load self-weight ratio

Technical Field

The invention relates to the field of mechanical arms, in particular to a mechanical arm with double working modes and a high load-weight ratio.

Background

The technical development of the mechanical arm at the present stage is rapid, when the load required at the tail end is large, the load dead weight ratio of the traditional industrial mechanical arm is mostly smaller than 1/2, and the defects of large self weight, material redundancy, low efficiency, large power consumption and the like exist. A mechanical arm with simple structure, capability of grabbing, carrying large load and high load-weight ratio is urgently needed to meet the market demand.

The invention provides a mechanical arm with double working modes and a high load-weight ratio, which aims to make up for the defects in the prior art, and can realize the grabbing and carrying work of heavy objects.

Disclosure of Invention

In order to solve the problems, the invention discloses a mechanical arm with double working modes and a high load-weight ratio. The first driving device is mounted on the base and connected with the first mechanical arm, the first mechanical arm is connected with the second mechanical arm through a second driving device, and the second mechanical arm is connected with the third driving device through a lower limit support; and the driving device III is fixed on the mechanical arm III, and the mechanical arm is fixed on the mechanical arm III. The mechanical arm is divided into two working modes, the first mechanical arm and the second mechanical arm are in a non-locking state in a light load mode, the mechanical arm has three degrees of freedom, the first mechanical arm and the second mechanical arm are in a locking state through lower limit support in a heavy load mode, the second driving device is locked, the third mechanical arm is in a suspension state, and the mechanical arm has one degree of freedom. Through the locking of structure and the switching of drive, realize the switching of light load and heavy load mode, the arm bears a burden the proportion and exceeds 1: 1.

further, the mechanical arm with the double working modes and the high load-weight ratio is characterized in that: the second mechanical arm structure comprises a supporting cylinder, a hinge part and a second mechanical arm, the supporting cylinder is fixed on the second mechanical arm, the hinge part is fixed on the second mechanical arm, and the second driving device is hinged to the first mechanical arm and the hinge part respectively. When the robot is in a light-load working mode, the first mechanical arm and the second mechanical arm are not locked, when the robot is in a heavy-load working mode, the support cylinder is fixed with the lower limit support, at the moment, the first mechanical arm and the second mechanical arm are locked, the second driving device is self-locked, and the third mechanical arm is in a suspension state.

Further, the mechanical arm with the double working modes and the high load-weight ratio is characterized in that: the manipulator comprises a base frame upper cap, an upper end connecting rod, a lower end connecting rod, a hinge point supporting semi-ring, a finger sliding seat, a finger, a base frame limiting part and a finger base frame, wherein the base frame upper cap is installed on the driving device III, the upper end connecting rod is hinged to the base frame upper cap, the lower end connecting rod is hinged to the upper end connecting rod, the hinge point supporting semi-ring is hinged to the finger, the finger sliding seat is fixed on the base frame upper cap, the finger is hinged to the finger sliding seat, the base frame limiting part is fixed on the mechanical arm III, the finger base frame is fixed on the base frame upper cap, and in a light load mode, the driving device three passes through the upper end connecting rod and the lower end connecting rod, and the rotation of the finger is used for clamping and carrying an object; under the heavy-load working mode, the finger base frame locks the object, so that the mechanical arm lifts the object.

Further, the mechanical arm with the double working modes and the high load-weight ratio is characterized in that: the aluminum alloy with more excellent performance is selected for the mechanical arm, so that the mass of the mechanical arm is reduced under the condition of meeting the requirement of strength and rigidity.

The invention has the advantages that:

(1) the invention utilizes the lower limit support to lock the mechanical arm I and the mechanical arm II in a heavy-load working mode, additionally enhances the load capacity of the mechanical arm and enables the load-weight ratio to exceed 1: 1.

(2) the manipulator adopts a two-stage connecting rod large-opening finger mechanism, and the object is clamped by fingers during light load and is lifted by fixing the finger base frame during heavy load.

(3) The third mechanical arm is made of aluminum alloy materials, so that the third mechanical arm is lighter in weight under the condition of meeting the requirements on strength and rigidity.

Drawings

FIG. 1 is a schematic isometric view of a dual mode high load-to-weight ratio robotic arm of the present invention;

FIG. 2 is a schematic diagram of a second embodiment of a dual-mode high-load-weight-ratio robot arm of the present invention;

figure 3 is a schematic diagram of a dual mode robot arm with a high load-to-weight ratio of the present invention.

Description of reference numerals:

1-a base; 2, a first mechanical arm; 3-a first driving device; 4, a second mechanical arm structure; 41-support cylinder; 42-hinge; 43-mechanical arm two; 5-a second driving device; 6-lower limit support; 7-driving device III; 8-mechanical arm III; 9-a manipulator; 91-base frame upper cap; 92-an upper end connecting rod; 93-lower end connecting rod; 94-hinge point support half ring; 95-finger slide; 96-finger; 97-limiting the base frame; 98-finger base frame.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to the attached drawing 1, the structure of the double-working-mode high-load-weight-ratio mechanical arm is schematically shown, and the mechanical arm comprises a base 1, a first mechanical arm 2, a first driving device 3, a second mechanical arm structure 4, a second driving device 5, a lower limit support 6, a third driving device 7, a third mechanical arm 8 and a mechanical arm 9. The driving device III 7 is fixed on the mechanical arm III 8, and the mechanical arm 9 is fixed on the mechanical arm III 8. The mechanical arm is divided into two working modes, the mechanical arm I2 and the mechanical arm II 43 are in a non-locking state in a light load mode, the mechanical arm has three degrees of freedom, the mechanical arm I2 and the mechanical arm II 43 are in a locking state through lower limit support in a heavy load mode, the driving device II 5 is locked, the mechanical arm III 8 is in a suspension state, and the mechanical arm has one degree of freedom. Through the locking of structure and the switching of drive, realize the switching of light load and heavy load mode, the arm bears a burden the proportion and exceeds 1: 1.

referring to fig. 2, a diagram of a two-structure robot arm with a high load-to-self-weight ratio in a two-working mode according to the present invention is shown. The second mechanical arm structure 4 comprises a support cylinder 41, a hinge part 42 and a second mechanical arm 43, the support cylinder 41 is fixed on the second mechanical arm 43, the hinge part 42 is fixed on the second mechanical arm 43, the second driving device 5 is respectively hinged to the first mechanical arm 2 and the hinge part 42, and the second driving device 5 realizes pitching motion of the second mechanical arm 43. When the robot is in a light-load working mode, the first mechanical arm and the second mechanical arm are unlocked, when the robot is in a heavy-load working mode, the support cylinder 41 and the lower limit support 6 are fixed, at the moment, the first mechanical arm 2 and the second mechanical arm 43 are locked, the second driving device 5 is self-locked, and the third mechanical arm 8 is in a suspension state.

Referring to fig. 3, there is shown a schematic diagram of a robot arm with a high load-to-weight ratio for dual operation modes according to the present invention. The manipulator 9 comprises an upper base frame cap 91, an upper end connecting rod 92, a lower end connecting rod 93, a hinge point supporting half ring 94, a finger sliding seat 95, a finger 96, a base frame limit 97 and a finger base frame 98, wherein the upper base frame cap 91 is installed on the driving device III 7, the upper end connecting rod 92 is hinged on the upper base frame cap 91, the lower end connecting rod 93 is hinged with the upper end connecting rod 92, the hinge point supporting half ring 94 is hinged with the finger 96, the finger sliding seat 95 is fixed on the upper base frame cap 91, the finger 96 is hinged with the finger sliding seat 95, the base frame limit 97 is fixed on the mechanical arm III 8, the finger base frame 98 is fixed on the upper base frame cap 91, and in a light load working mode, the driving device III 7 clamps and carries an object through the upper end connecting rod 92 and the lower end connecting rod 93 by the rotation of the finger 96; under the heavy-load working mode, the finger base frame locks the object, so that the mechanical arm lifts the object.

Referring to the attached drawing 1, an axonometric view structure of the mechanical arm with double working modes and high load-weight ratio is shown schematically, and the mechanical arm selects aluminum alloy with more excellent performance, so that the mass of the mechanical arm is reduced under the condition of meeting the requirement of strength and rigidity.

In conclusion, the invention can effectively realize the work of clamping and transporting objects, can form two working modes through the function of lower limit support, and has higher load-weight ratio.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (4)

1. The mechanical arm with the double working modes and the high load-weight ratio is characterized by comprising a base (1), a first mechanical arm (2), a first driving device (3), a second mechanical arm structure (4), a second driving device (5), a lower limit support (6), a third driving device (7), a third mechanical arm (8) and a mechanical arm (9);

the first driving device (3) is installed on the base (1), the first driving device (3) is connected with the first mechanical arm (2), the first mechanical arm (2) is connected with the second mechanical arm structure (4) through the second driving device (5), and the second mechanical arm structure (4) is connected with the third driving device (7) through the lower limit support (6); the driving device III (7) is fixed on the mechanical arm III (8), and the mechanical arm (9) is fixed on the mechanical arm III (8);

the mechanical arm with the high load self-weight ratio in the double working modes is divided into two working modes, the mechanical arm I (2) and the mechanical arm II (43) are in a non-locking state in the light-load mode, and the mechanical arm with the high load self-weight ratio in the double working modes has three degrees of freedom;

in a heavy-load mode, the mechanical arm I (2) and the mechanical arm II (43) are in a locking state through a lower limit support, the driving device II (5) is locked, the mechanical arm III (8) is in a suspension state, and the mechanical arm with high load-weight ratio in the double-working mode has one degree of freedom;

through the locking of structure and the switching of drive, realize the switching of light load and heavy load mode, the arm heavy burden proportion of the high load dead weight ratio of two mode of doing exceeds 1: 1.

2. the mechanical arm with high load-weight ratio of double working modes as claimed in claim 1, wherein the second mechanical arm structure (4) comprises a support cylinder (41), a hinge (42) and a second mechanical arm (43), the support cylinder (41) is fixed on the second mechanical arm (43), the hinge (42) is fixed on the second mechanical arm (43), the second driving device (5) is respectively hinged on the first mechanical arm (2) and the hinge (42), and the second driving device (5) realizes the pitching motion of the second mechanical arm (43); when the robot is in a light-load working mode, the first mechanical arm and the second mechanical arm are unlocked, when the robot is in a heavy-load working mode, the support cylinder (41) and the lower limit support (6) are fixed, at the moment, the first mechanical arm (2) and the second mechanical arm (43) are locked, the second driving device (5) is self-locked, and the third mechanical arm (8) is in a suspension state.

3. The mechanical arm with high load-weight ratio of double working modes as claimed in claim 1, wherein the mechanical arm (9) comprises a base frame upper cap (91), an upper end connecting rod (92), a lower end connecting rod (93), a hinge point supporting half ring (94), a finger sliding seat (95), a finger (96), a base frame limit (97) and a finger base frame (98), the base frame upper cap (91) is installed on the driving device III (7), the upper end connecting rod (92) is hinged on the base frame upper cap (91), the lower end connecting rod (93) is hinged with the upper end connecting rod (92), the hinge point supporting half ring (94) is hinged with the finger (96), the finger sliding seat (95) is fixed on the base frame upper cap (91), the finger (96) is hinged with the finger sliding seat (95), and the base frame limit (97) is fixed on the mechanical arm III (8), the finger base frame (98) is fixed on the base frame upper cap (91), and under a light-load working mode, the contraction motion of the driving device III (7) realizes clamping and carrying of objects through the rotation of the upper end connecting rod (92) and the lower end connecting rod (93) and the fingers (96); under the heavy-load working mode, the finger base frame locks the object, so that the mechanical arm lifts the object.

4. A dual mode, high load-to-weight robot arm as claimed in claim 1 or claim 3, wherein said robot arm is made of aluminum alloy.

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